RU2539802C1 - Barley growing method - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to biotechnology. The invention represents a barley growing method by treatment with a protective stimulating complex, where barley seeds are wetted with a water solution of a complex of biologically active substances of Floravit^® feed additive with a concentration of 1*10^-4 mg/ml and consumption of 10 l/t of seeds and barley plants are sprinkled during a tillering phase with the water solution of the complex of biologically active substances of Floravit^® feed additive with a concentration of 1*10^-4 mg/ml and consumption of the solution of 200-250 l/ha.

EFFECT: invention allows increasing crop yield and quality parameters of barley.

1 dwg, 4 tbl

Description

1. The technical field

The invention relates to biotechnology and can be used in agriculture, in the field of crop production, to activate the germination of barley seeds and stimulate the development of plants.

2. The level of technology

A known method of selection of barley and other crops grown from seeds previously treated with gamma rays to create resistant forms to drought and other adverse external influences (RU No. 2232500, IPC ⁹ : A01H 1/04, 2004).

The disadvantage of the analogue is its selection orientation, while the objective of the invention is its direct practical use

Known adopted as a prototype of the claimed invention, a method for regulating the transcription of barley chloroplast genes, in which the activation of seed growth is provided by processing their seedlings with 24-epibrassinolide (RU No. 2460279, IPC ⁹ : A01H 1/00, 2012).

The disadvantage of the prototype is the complexity of the technology and the high cost of the drugs used.

3. Disclosure of invention

The objective of the invention is to increase productivity and quality indicators of the grown product.

The task is ensured by the fact that barley is grown using treatment with an aqueous solution of a complex of biologically active substances of the feed additive Floravit ^® as a protective stimulating complex, and the seeds of barley are soaked with an aqueous solution of the complex of biologically active substances of the feed additive Floravit ^® with a concentration of 1 * 10 ^-4 mg / ml and a flow rate of 10 l / t of seeds, and barley plants in the tillering phase are sprayed with an aqueous solution of a complex of biologically active substances of the feed additive Floravit ^® with a concentration of 1 * 10 ^-4 mg / m l and a solution flow rate of 200-250 l / ha.

4. The implementation of the invention

The production of high-quality barley in regions favorable for its cultivation does not fully provide the brewing and animal feed industry with raw materials, and its purchase abroad leads to significant economic costs [1]. In this regard, the development of technological methods that allow to obtain a high yield of good quality barley grain in the conditions of the Central Non-Black Earth Region is very relevant [2].

The experimental work was carried out on the fields of the plant growing laboratory of the Moscow Agricultural Academy named after K.A. Timiryazev in 2010-2012 The soil of the experimental plot is sod-podzolic, light loamy. The thickness of the arable horizon is 22-25 cm, the humus content (according to Tyurin) is 2.2%, pH (KCl) is 5.72%, P ₂ O ₅ is 290 mg / kg of soil, K ₂ O is 75 mg / kg of soil , N total 0.13%, Ng - 2.5 mEq / 100 g of soil, V - 89.5% [3].

As the object of study, we took the culture of barley, variety "Mikhailovsky".

The purpose of the research was to study the features of crop formation and the quality of barley grain suitable for brewing and compound feeds when using protective-stimulating complexes against the background of fractional nitrogen fertilizer application under the conditions of central heating and cooling system.

The experience is three-factor, laid down by the method of randomized repetitions, four-fold repetition. The area of one plot is 10-14 m ² .

Features of spring barley cultivation technology.

Place in crop rotation. Due to the formation of a poorly developed root system, which is characterized by a relatively weak assimilating ability, as well as a short period of intensive consumption of nutrients, barley makes increased demands on growing conditions, especially during the first growing season. One of the conditions ensuring a good development of plants is the correct selection of precursors.

Numerous studies and practice indicate that the best predecessors of barley are crops that leave the field cleaner from weeds, with a sufficient amount of nutrients readily available to plants in the soil, and in semi-arid and arid areas, crops that less dry out the soil.

In many areas of the country, the best predecessors of spring barley are well-fertilized row crops, leaving clean fields from weeds. Good predecessors are winter grains that go along fertilized clean or busy steam. For food and feed purposes, barley can be sown after legumes, leaving a sufficient amount of nitrogen in the soil. Often in the Non-Chernozem zone, a bar and a layer of perennial grass and flax flax are used as a precursor to barley; in Siberia - spring wheat sown with clean steam.

Brewing barley, as a rule, is placed after fertilized row crops. In this case, it gives a high grain yield.

Barley, being a precocious crop, is a good predecessor for many spring crops, and in some areas for winter crops. Due to the short growing season, barley is a valuable cover crop for perennial legumes and cereal grasses.

Tillage. The soil tillage system for barley is no different from the soil tillage system for other spring crops. The main tillage when placing barley after stubble predecessors is carried out in the fall and consists of two methods - stubble cultivation and plowing, when placing it after row crops, only plowing is carried out. In the north of the Non-Black Earth Zone of the Russian Federation and in Siberia, where the period from harvesting the previous crop to the onset of stable frosts is less than one month, it is impractical to carry out the shelling, immediately plowing.

In areas subject to wind erosion, when growing barley, a soil-protective soil cultivation system is used - subsurface cultivation. In winter, snow retention is carried out.

Spring tillage includes harrowing winter chicks to preserve moisture in the soil, and pre-sowing cultivation. In areas of excessive moisture and in the cold rainy spring, harrowing of the chill is not carried out, but only pre-sowing cultivation is performed. When placing barley on light sandy loamy soils that are clean of weeds, it is enough in the spring to limit ourselves to careful harrowing, which allows you to prepare the soil for sowing well.

In areas of insufficient moisture on light loose soils, it is recommended that the soil be rolled before sowing, which ensures uniform seed placement and the emergence of friendly seedlings.

Fertilizers Barley is the most responsive fertilizer crop. With their proper application, barley yields significantly increase, plant resistance to drought, diseases, pests increases, and the feed quality of grain improves. According to the generalized data of research institutions, for the formation of 10 centners of grain and the corresponding amount of straw, barley absorbs N - 25-30 kg from the soil, P ₂ O ₅ - 10-12 kg and K ₂ O - 20-24 kg. Compared with other crops, barley is characterized by a short period of absorption of the main nutrients, it requires a large number of readily available nutrients in the first period of growth and development. It is very important at this time to provide it with the necessary amount of fertilizers, especially mineral ones. During the “seedling-tillering” period, it consumes about 50% of phosphorus and nitrogen, and almost 75% of potassium from the total consumption during the growing season. The lack of nutrients in the first 15-30 days after sowing delays the growth and development of plants and the normal process of formation of carbohydrates, which leads to a disruption in the formation of generative organs, weakens resistance to lodging and diseases, and significantly reduces yield.

The fertilizer rate is calculated on the planned yield or the recommendations of agrochemical experimental stations are used. Phosphoric and potassium fertilizers are applied in autumn for plowing, nitrogen fertilizers - in spring under pre-sowing cultivation. A part of phosphorus fertilizers, 10-15 kg / ha, is used during sowing for better development of the root system and the formation of a larger spike. According to the Department of Plant Production at the Moscow Agricultural Academy named after K.A. Timiryazev fractional application of nitrogen for pre-sowing cultivation and in the tillering phase for an average of 6 years on sod-podzolic soils did not provide an increase in the yield of barley Zazersky-85 compared to the introduction of the full norm of nitrogen for pre-sowing cultivation. The yield increase from fractional application was 9.5 c / ha, and from the introduction of the entire nitrogen norm for cultivation, it was 11.3 c / ha. However, later nitrogen supplementation can significantly increase the protein content in the grain.

When growing barley for brewing purposes, the rate of nitrogen fertilizers is reduced by 20-25%. When sown under barley of perennial herbs, the application of more than 60 kg / ha of nitrogen leads to the loss of clover. On fertile soils, it is sufficient to apply 30-40 kg / ha of nitrogen.

Barley, having a short period of consumption of nutrients, responds better to mineral fertilizers than organic. Therefore, organic fertilizers do not apply directly under barley or apply only in some northern regions, where soil fertility is very low. Barley is most often placed as a second crop after cultivated row crops. In this case, barley makes good use of the aftereffect of organic fertilizers, responds well to the use of micronutrients, which activate enzymes that accelerate the biochemical processes in plants, increasing their resistance to diseases and drought. The greatest need for boron is manifested on sod-podzolic and peaty soils. Manganese fertilizers are used on slightly alkaline or neutral soils of light texture. In some cases, pre-sowing treatment of seeds with a solution of zinc sulfate gives good results.

Sowing. Preparation of seeds for sowing. For sowing, large, aligned seeds of I or II class with a growth force of at least 80% and a seed weight of more than 40 mg should be used. Such seeds give more friendly seedlings and provide their better growth. Of great importance in increasing the energy of germination and germination of barley seeds, especially in areas where they do not always have time to undergo post-harvest ripening, is air-heat heating for 3-5 days in the sun or on floor dryers. For the disinfection of barley seeds from pathogens, it is necessary to etch in a semi-dry or dry way.

Dry seed dressing can be performed two to three months before sowing. It provides a stronger effect of the drug and allows you to save seeds in the spring without compromising germination. However, only seeds with a moisture content of not more than 14% can be processed in advance. At a moisture content above 17%, the seeds are treated two to three days before sowing in a semi-dry way, while the dose of seed dressing necessary to process 1 ton of seeds is diluted in 10 liters of water, and the seeds are moistened with the resulting suspension. Adhesives are added to the suspension to increase processing efficiency. Sowing dates. Early sowing is one of the main conditions for obtaining high yields of barley. Cool weather and a sufficient amount of moisture in the soil contribute to the emergence of sprouts and a good development of the root system. In the early stages of sowing, barley is less affected by fungal diseases and has time to unfold before the mass departure of the Swedish fly, less prone to drought. In addition, the harvesting of early crops usually takes place under favorable meteorological conditions.

In the European part of Russia, the best dates for barley sowing are the first five to seven days of the start of field work, it is sown after sowing spring wheat or simultaneously with it. In Siberia, sowing dates can be shifted to the second or third decade of May. The advantage of the relatively late crops in these areas is explained by the fact that such crops use the July rain more efficiently and it becomes possible to carry out two cultivations before sowing to destroy wild oats and other weeds. However, it is not recommended to stay too late with barley sowing, because of the danger of grain damage by autumn frosts.

Barley is a culture of a continuous method of sowing; it is best to sow it in narrow-row or in ordinary ordinary ways. With a narrow-row planting method, the most optimal plant nutrition area is achieved and favorable conditions for plant growth and development are created. Barley has a relatively high tillering energy, therefore it reacts more strongly than spring wheat to higher seeding rates. Both thickened and sparse crops reduce yield and grain quality. The seeding rate can vary depending on soil fertility and weediness of the field, fertilizer, precursor, quality of pre-sowing treatment, timing and methods of sowing, as well as weather conditions during the sowing period. According to the long-term generalized data of research institutions, the seeding rates for a narrow-row method of sowing are as follows: Non-chernozem zone, the Far East - 5.0-6.0 million germinating seeds per 1 ha; Central Black Earth Zone - 4.5-5.5; Volga region, Southern Urals, Trans-Urals - 3.5-4.0. Seeding rates must be clarified in each farm, depending on the above conditions in order to have at least 400-600 productive stems per 1 m ² by the time of harvesting.

When cultivating barley with sowing perennial grasses, the seeding rate must be reduced by 15-20%.

The depth of seed placement strongly affects not only the field germination of seeds, but also on the subsequent development of plants. If the seeding is not deep enough, some of the seeds often emerge only after rains, the seedlings are unfriendly, the tillering node is laid shallow, which negatively affects the development of secondary roots and decreases the plant's resistance to drought. With excessive deepening, the seedlings weaken and some of them die. Given the high need for moisture swelling of seeds, they must be embedded in the moist soil layer. The depth of seed placement depends on the moisture and particle size distribution of the soil. On heavy clay soils, the seeds are planted 3-4 cm, on light sandy loam soils 5-6 cm, and in arid regions the seed placement depth is increased to 6-8 cm.

Crop care. Complex measures for the care of barley crops provide optimal conditions for the growth and development of plants. Among these measures include rolling, destruction of the soil crust, weed control, diseases and pests, etc.

In order to make friendly sprouts of barley, post-sowing rolling of ring-spur rollers is used in arid areas. When the soil crust appears before emergence, harrowing should be carried out across the crops with light harrows. This operation contributes to the destruction of weeds, destroys the crust and increases air access to the roots. To control weeds in the tillering phase of barley, it is necessary to carry out chemical weeding, using permitted herbicides for this.

To increase the protein content in barley grain used for fodder purposes, late top dressing in the heading phase can be used. Feeding is carried out with urea at the rate of 20-25 kg per 1 ha. The flow rate of the working fluid is 300 l / ha. With the threat of damage to barley crops with cereal flies, cereal aphids, crops must be treated with pesticides.

Cleaning. Barley ripens in unison and when full ripeness occurs, the ears will wilt and become brittle. Delay in harvesting leads to large crop losses. Barley is harvested using two-phase and single-phase methods. In the two-phase method, barley is mowed into rolls in the middle of wax ripeness at a grain moisture of 35-38% and after 3-5 days, as the grain dries, the rolls are picked and threshed. This method of harvesting, if weather conditions permit, significantly reduces crop losses. Single-phase harvesting is carried out in the phase of full ripeness of grain [8].

The weakest point in technology remains plant growth in the initial period of its development. During this period, barley plants are most susceptible to disease. Therefore, they are treated with various chemicals. Their application, on the one hand, protects, and on the other hand, slows down growth and development in the initial periods.

The difference between the claimed method of processing plants from the classical one is the treatment of barley seeds with an aqueous solution of Floravit ^® as a protective-stimulating complex.

Options: 1. Control. 2. Floravit ^®

Processing with an aqueous solution of Floravit ^® gave a significant increase in yield. The use of protective-stimulating complexes in the sowing of malting barley is an important agricultural technique that allows to obtain high grain yields, without reducing its technological quality. The protein content in barley grain did not exceed 12.0%, which corresponds to the barley grain quality indicators of class I [6].

5. Research technique.

The experimental work was carried out in the fields in 2010-2012.

The soil of the experimental plot of the plant growing laboratory of RGAU-MSHA named after K.A. Timiryazev is sod-podzolic, light loamy. The thickness of the arable horizon is 22-25 cm, the humus content (according to Tyurin) is 2.2%. The object of study is spring barley, variety Mikhailovsky. The experience was laid down by the method of randomized repetitions in quadruplicate. The accounting area of the plot was 10-14 m ² . The precursor of barley is leguminous crops. The cultivation technology generally accepted for this zone. Fertilizers counted on a planned crop of 40 kg / ha. Before sowing, barley seeds, according to the experimental scheme, were treated with an aqueous solution of Floravit ^® with a concentration of 1 * 10 ^-4 mg / ml as a protective-stimulating complex developed at the Department of Physical and Organic Chemistry of the Russian State Autonomous Agricultural University. K.A. Timiryazev under the guidance of Professor S.L. Belopukhov. Seeds were treated semi-dry at the rate of 10 l of solution per 1 ton of seeds. The crop was taken into account by the continuous method, divided. Harvesting was carried out with a Sampo-130 combine. The yield data were subjected to mathematical processing by analysis of variance.

Meteorological conditions of vegetation periods during the years of research differed among themselves both in air temperature and amount of precipitation, and in the nature of their distribution during the growing season.

The most favorable for the growth and development of barley plants were the weather conditions in 2012, when the air temperature, rainfall and the nature of their distribution were at the level of long-term average data. The vegetation period of 2010 was characterized by high air temperature and lack of precipitation throughout the entire period. The air temperature was 7.0 ° C higher than the long-term average, and the rainfall during this period fell by 11.5 mm less than the long-term average rainfall, which negatively affected the growth and development of plants, as well as the formation of the future barley crop.

6. Technical results.

The objective of the invention was to identify the effect of an aqueous solution of Floravit ^® , as a protective stimulating drug, on the productivity and quality of brewing raw materials - spring barley Mikhailovsky in the conditions of the Central region of the Non-Chernozem zone of Russia.

The research results showed that the maximum leaf surface of the barley plant was formed in the heading phase, where it reached 29.3-50.5 thousand m ² / ha depending on the weather conditions of the growing season and experimental options. The treatment of plants with an aqueous solution of Floravit ^® as a protective-stimulating complex contributed to an increase in the assimilation surface for all years of the study by an average of 5.0 thousand m ² / ha, while the largest increase in leaf area during seed treatment was noted to be most favorable for growth and plant development in 2012 (figure 1).

Starting from the heading phase, the leaf surface begins to decrease as a result of the natural aging of the leaves and the development of diseases on them, while in the case of the use of an aqueous solution of Floravit ^® , the life span of the leaves significantly increased.

The formation of the largest leaf surface area and photosynthetic potential of crops in the application of the protective-stimulating complex ensured higher barley productivity (Table 1). Its average yield over three years is 15-43% higher than in the control variant.

The results of studies have established that the use of an aqueous solution of Floravit ^® in the treatment of seeds and plants of barley has a significant impact on the productivity of barley, especially in years that are unfavorable due to weather conditions.

So, in 2010 under extreme weather conditions, the yield of spring barley during seed treatment with an aqueous solution of Floravit ^® increased by 4.2-5.5 c / ha, and in 2012 by 4.4-12.1 c / ha, compared with untreated seeds (table 1).

Table 1 Yield of spring barley (average for 2010-2012) Option 2010 year 2011 year 2012 years Average for 2010-2012 Productivity, t / ha Increase, kg / ha Productivity, t / ha Increase, kg / ha Productivity, t / ha Increase, kg / ha Productivity, t / ha Increase, kg / ha The control 28.3 35.90 57.8 40.7 Floravit ^® 33.8 5.5 37.00 1.10 69.9 12.1 46.9 6.2 Hcp ₀₅ 0.67 1.76 2,34

In 2011, seed treatment with an aqueous solution of Floravit ^® did not have a significant effect on barley yield. Only a tendency to increase the barley yield when processing with an aqueous solution of Floravit ^® (37.0 c / ha) was noted.

The results showed that both the treatment of seeds before sowing and the treatment of plants in the tillering phase with an aqueous solution of Floravit ^® , as a protective-stimulating complex, did not increase, but, on the contrary, reduced the protein content in barley grain by an average of 0.7-1, 0% compared with control (table 2). Moreover, the protein content in the studied variants did not exceed 12%, which indicates a rather high efficiency of using Floravit ^® in the production technology of brewing barley.

table 2 The protein content in barley grain,% Option The protein content in barley grain,% 2010 2011 2012 Average seed treatment The control 13.1 12.3 12,2 12.5 Floravit ^® 11,4 11.9 11,2 11.5 plant treatment The control 12,4 12.7 11.5 12,2 Floravit ^® 11.6 11.7 11.1 11.5

However, seed treatment with an aqueous solution of Floravit ^® did not lead to an increase in the starch content in barley grain (Table 3). The average starch content during seed treatment decreased by 0.9-4.6%, while the treatment of plants with Floravit ^® solution, primarily causing a protective effect on plants during the growing season, increased the starch content by 2.2%.

Table 3 The effect of an aqueous solution of Floravit ^® on the starch content in barley grain,% Option The starch content in the grain of barley,% 2010 2011 2012 Average seed treatment The control 49.7 45,2 44.3 46.4 Floravit ^® 50.6 41.3 33.6 41.8 plant treatment The control 50.9 44.9 38.7 44.8 Floravit ^® 50.8 45.9 44,4 47.0

Our studies also showed that the weather conditions of the growing season and the studied aqueous solution of Floravit ^® as a protective-stimulating complex did not significantly affect the barley grain extractivity. In all years of research, the index of extractability was quite high, corresponded to the standards of brewing raw materials and amounted to 73.2-78.5% (Table 4).

As you can see, the treatment of seeds with Floravit, in contrast to the processing of plants, did not increase the starch content in barley grain, which should be taken into account when growing brewing barley.

Table 4 The effect of an aqueous solution of Floravit ^® on the extractability of spring barley,% Option Barley grain extractivity,% 2010 year 2011 year 2012 year Average Seed treatment The control 77.9 78.9 74.9 77,2 Floravit ^® 78.5 73,2 76.0 75.9 plant treatment The control 77.9 75.7 76,2 76.6 Floravit ^® 77.3 76.0 76.8 76.7

Findings:

1. The use of an aqueous solution of Floravit ^® on barley crops as a protective-stimulating complex, reducing the negative impact of extreme environmental conditions on plants, has a beneficial effect on the productivity and quality of brewing barley in the conditions of the Central Non-Black Earth Region.

2. Seed treatment with an aqueous solution of Floravit ^® , in contrast to the treatment of plants in the tillering phase, did not increase the starch content in barley grain, which should be taken into account when growing malting barley.

Bibliographic list

1. Belichenko A.M. The Russian brewing industry today // Beer and drinks. - 1999. - No. 7. - p.21.

2. Bakhteev F.X. Barley. - L .: Nauka, 1955 .-- 87 p.

3. Almetov N.C. The effect of mineral fertilizers on the yield and quality of barley / N.C. Almetov // Agrochemistry. - 1994. - No. 2. - p. 65-69.

4. Belyakov I.I. The technology of growing barley / I.I. Belyakov - M .: Agropromizdat, 1985 .-- 119 p.

5. Lebedeva L.A. Fertilizer application system / L.A. Lebedeva - M.: Moscow State University, 1989, - 146 p.

6. Lemin V.G. Barley / V.G. Lemin - M .: Kolos, 1973.- 127 p.

7. Nazmutdinov A.Z. Brewing barley - a profitable culture // Grain farming. - 2001. - No. 4. - S.13.

8. Pospypanov G.S., Dolgodvorov V.E. Publisher: "KolosS" Series: Textbooks and study guides for universities Year: 2007.

Claims (1)

A method of growing barley using treatment with a protective-stimulating complex, characterized in that the barley seeds are soaked in an aqueous solution of a complex of biologically active substances of the feed additive Floravit ^® with a concentration of 1 * 10 ^-4 mg / ml and a flow rate of 10 l / t of seeds, and barley plants in the tillering phase is sprayed with an aqueous solution of a complex of biologically active substances of the feed additive Floravit ^® with a concentration of 1 * 10 ^-4 mg / ml and a solution flow rate of 200-250 l / ha.

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